Nonlinear optical (NLO) crystals are widely used to develop new laser source for their second-harmonic generation (SHG) properties. Searching new ultraviolet (UV) nonlinear optical crystals that can generate UV coherent sources has become the focus for active demand in laser and optical communication industry.
In a study published in J. Am. Chem. Soc., the research team led by Prof.YE Ning from Fujian Institute of Research on the Structure of Matter (FJIRSM) of Chinese Academy of Sciences (CAS) reported a new hydro-isocyanurate KLi(HC3N3O3)·2H2O (KLHCY) with outstanding UV NLO properties through solvent-drop grinding method.
Guided by anionic group theory, researchers firstly focus on alkali metal isocyanurates as candidates of new UV NLO crystals because large π-conjugated (HC3N3O3)2–group may provide excellent NLO properties and alkali metals can avoid absorption in the UV region.
Through the innovative combine of neutral reaction solvent-drop grinding method and powder SHG technique, a series of mixed alkali isocyanurates with large SHG responses, ABHC3N3O3·xH2O (AB=KLi, RbLi, RbNa, CsNa), were discovered based on the AOH-BOH-H3C3N3O3 (A/B=Li, Na, K, Rb, Cs) system.
Then the mixed alkali hydro-isocyanurate KLiHC3N3O3·xH2O was determined as KLi(HC3N3O3)·2H2O (KLHCY).
KLHCY is promising UV NLO crystal with a large SHG coefficients (5.3×KDP), a high laser damage threshold (4.76GW/cm2) and a large birefringence (0.186), which reduces Type I phase-matching to 246 nm.
Centimeter-level KLHCY single crystals were easily grown by water solution method.
KLHCY with large SHG response can be synthesized and grown by solvent-drop grinding method and water solution method, respectively.(Image by Prof. YE’s group)
Contact:
Prof. YE Ning
Fujian Institute of Research on the Structure of Matter
Chinese Academy of Sciences
Email: nye@fjirsm.ac.cn